Last October 2019, during the first Russia-Africa Summit, Russian President Vladimir Putin and Egyptian President Abdel Fattah al-Sisi reaffirmed commitment to scale-up cooperation in various economic sectors and particularly expedite work on the special industrial zone and the construction of proposed four nuclear power plants, raising hopes for an increased power supply in Egypt.
Seated in a sizeable conference hall on October 23, Putin told the Egyptian delegation: “As for our bilateral relations, we continue to implement ambitious projects that have been coordinated by us, including a nuclear power plant and an industrial zone in Egypt. We are working very actively in these areas, and we are planning to invest $190 million in infrastructure development projects and to attract up to $7 billion.”
In his response, Abdel Fattah el-Sisi warmly expressed gratitude for holding the first Russia-Africa Summit, added that relations have had a long history in many fields and spheres, starting with Russia’s support to the liberation movement, its contributions helped many African countries to attain practical results based on mutually beneficial cooperation in Africa.
“I would like to point out that we view Russia as a reliable partner of the African continent. We hope very much that Russia will be working in Africa in all spheres and fields, including in that of the development, as well as in the financing of infrastructure projects on the continent and in particular in energy and road construction,” the Egyptian leader told Putin.
Egypt attaches great importance in its relations with Russia. But what is particularly important for their bilateral relations, Abdel el-Sisi assertively reminded: “I would like to assure you of our high appreciation of our bilateral relations, which are developing in various formats, especially after we signed a comprehensive cooperation agreement. We sincerely hope that our relations will continue to develop in all fields and spheres.”
“As for the nuclear power plant, we set a high value on our bilateral cooperation. We strongly hope that all topics related to this project will be settled without delay so that we can start implementing the project in accordance with the signed contract. Mr President, we hope that the Russian side will provide support to nuclear energy facilities in Egypt so that we can work and act in accordance with the approved schedule,” he added, in conclusion.
Related Russian ministries, departments and agencies are, usually, tasked to coordinate and implement bilateral agreements. In the case of nuclear power, State Atomic Energy Corporation is the main player. According to the description made available on its website, State Atomiс Energy Corporation, popular referred to as Rosatom, is a global leader in nuclear technologies and nuclear energy. It is established 2007 [a non-profit entity type] and headquartered in Moscow.
In fact, Rosatom has shown business interest in Africa. Over the past two decades, at least, it has signed agreements that promised construction of nuclear energy plants and training of specialists for these countries. The Director General, Alexey Likhachev, emphasized these points at the Russia-Africa Summit that Rosatom has already been cooperating with more than 20 African countries, in particular, building the largest “El-Dabaa” NPP in Egypt with an installed capacity of 4.8 GW.
While still there in Sochi, Alexey Likhachev noted that more reliable, affordable and stable energy is the basic condition for achieving sustainable development goals. “We can make a qualitative breakthrough in Africa in terms of technological development and the use of nuclear technology in the next few years,” he said during one of the plenary sessions.
According to Reuters, the Egyptian Electricity and Renewable Energy Minister Mohamed Shaker said earlier at the International Atomic Energy Agency’s ministerial conference that Russia had asked for $12 billion for the nuclear plants, a reliable solution for energy deficit. In this regard, the development of nuclear energy is important for Egypt.
“We made significant strides in the preparation of all strategic agreements [regarding the construction of a NPP in Egypt] with our strategic partner, Russia. We have also completed all technical, financial and legal aspects,” he said.
Shaker said that Egypt decided to build an NPP due to the need to redress the energy balance to reduce emissions of greenhouse gases and to save hydrocarbons which the country has earmarked for petrochemicals. “We have few traditional sources of electricity generation. The potential of hydro energy is gradually waning. Following the adoption of a special plan to cut greenhouse gas emissions we stopped using coal plants, however, energy consumption will grow,” according to the Minister.
It raises many questions about practical implementation of the several [paperwork] nuclear agreements that were signed with African countries. According to historical documents from the Ministry of Foreign Affairs and information from published media reports, specifically about Egypt, the proposed Russian nuclear plants has a long history, at dating back to Soviet days.
Nuclear deals with Russia
Egypt has been considering the use of nuclear energy for decades. The Nuclear Power Plants Authority [NPPA] was established in 1976, and in 1983 the El Dabaa site on the Mediterranean coast was selected.
Egypt’s nuclear plans, however, were shelved after the Chernobyl accident. However, in 2006, Egypt announced it would revive its civilian nuclear power program, and build a 1,000 MW nuclear power station at El Dabaa. Its estimated cost, at the time, was $12.5 billion, and the plans were to do the construction with the help of foreign investors. In March 2008, Egypt signed an agreement with Russia on the peaceful uses of nuclear energy.
Early February 2015, President Putin and President Abdel Fattah el-Sisi signed an agreement to set up a nuclear plant in Dabaa, on the Mediterranean coast west of the port city of Alexandria, where a research reactor has stood for years. The deal was signed after a comprehensive bilateral discussion held and both expressed high hopes that Russia would help construct the country’s first nuclear facility.
Interfax news agency reported that Sergei Kiriyenko, the Head of the Rosatom state corporation, had presented to the authorities in Egypt, Russia’s proposals on construction of the first nuclear power plant in that country. The proposal is for construction of four power blocks, each with 1,200 megawatts of capacity.
Rosatom and Egypt’s Electricity and Energy Ministry signed the agreement on development of the nuclear plant construction project in February 2015. The project assumes that Russia will provide an intergovernmental loan to Egypt. Commercial contracts would be concluded once the intergovernmental agreements on construction of the facility and on the loan were signed.
In assertive remarks carried by local Russian news agencies, Kiriyenko said at that time that the technical and commercial details of the project were not finalized, but envisaged the new technology with strong safety measures taken into account. That included the lessons learned during the March 2011 Fukushima disaster in Japan, as well as a loan requested by the Egyptian government for the project construction.
Russia and Egypt Courtship
Interestingly, Egypt’s dreams of building nuclear plant has spanned several years, with agreement that was signed [as far back in March 2008] during an official visit to the Kremlin by the ousted Egyptian President Hosni Mubarak, and then through another former Egyptian leader Mohammed Morsi who discussed the same nuclear project with Putin in April 2013 in Sochi, southern Russia.
Mohammed Morsi had sought $4.8 billion loan from International Monetary Fund [IMF], and had also asked for an unspecified amount of loan from Russia to build the nuclear power plant. He hoped Russia would accelerate and expedite efforts, and provide financial backing for the project during his political administration.
The same year, following the revolutionary events and after a wave of mass anti-government actions, the army ousted the Moslem Brotherhood and their leader Mohammed Morsi, resulting in postponing or suspending the nuclear construction agreement. Since July 2013, Abdel Fattah el-Sisi has been in power after removing Morsi from office.
It is well-known fact that Egypt had long ties with the former Soviet Union. Those bilateral diplomatic ties resulted in several development projects in late 1950s including the building of the Aswan dam. During the Soviet times, many specialists were trained for Egypt. Hosni Mubarak, a former pilot, received training in what is now Kyrgyzstan, and further studied at the Soviet Military Academy in Moscow in the 1960s.
Egypt, first, began its nuclear program in 1954 and in 1961, acquired a 2-megawatt research reactor, built by the Soviet Union. Plans to expand the site have been decades in the making but repeatedly fell through. In 2010, that reactor suffered a breakdown, though no radiation was reported to have leaked out.
Renewable Energy Sources
Egypt is classified as having a high power system size [24,700 MW installed generation capacity in 2010 with more than 40 grid-connected plants]. As of 2010, 99% of the Egyptian population has access to electricity.
Since the early 2000s, power outage rates and durations, as well as distribution system losses, have trended downwards indicating that distribution companies have improved their overall customer service quality over the past decade; however, Egypt has seen a great weakening in its supply security. The power system’s generation reserve capacity declined from 20% in the early 2000s to 10% by the 2010s.
The weakening of Egypt’s supply security has caused widespread social issues in the 2010s. To deal with the extremely high demand for electricity, rolling blackouts and power cuts were implemented throughout the summer of 2012 causing great tension between the government and the people of Egypt.
Egypt has Renewable energy projects. The current energy strategy in Egypt [adopted by the Supreme Council of Energy in February 2008] is to increase renewable energy generation up to 20% of the total mix by 2020. The energy mix includes the use of hydropower, solar wind and nuclear.
Hydropower – The majority of Egypt’s electricity supply generated from thermal and hydropower stations. There are four main hydroelectric generating stations currently operating in Egypt. Experts have questioned why Egypt could not maximize the use of the river Nile that stretches 6.695 kilometers, especially for agricultural, industrial and generating energy for the region.
Solar – Egypt has a high solar availability as a result of hot desert climate.
Wind – Egypt has a high potential for wind energy, especially in the Red Sea coast area. As of 2006, 230 MW of wind energy was installed, and again 430 MW of wind power was installed in 2009.
In March 2015, British Petroleum [BP] signed a $12 billion deal to develop natural gas in Egypt intended for sale in the domestic market starting in 2017. Egypt is an important non-OPEC energy producer. It has the sixth largest proved oil reserves in Africa. Over half of these reserves are offshore reserves. Although Egypt is not a member of OPEC, it is a member of the Organization of Arab Petroleum Exporting Countries.
Swinging for Nuclear Power
Nuclear experts have also shown some concern. Lack of electricity supply is a huge restraint on African economies and specifically for Egypt, nuclear power could be an excellent source of large-scale grid electricity. Nuclear is not expensive compared with other energy sources. But for African countries to develop nuclear power, the governments must first establish the necessary legal and regulatory framework.
The project must comply with all international standards and regulation on nuclear power. Africa has a shortage of skills for nuclear power. However, Africa has a shortage of skill for any energy technology, so developing nuclear power would necessarily mean increasing African skills, which is in itself a good thing.
Despite the long technical negotiation process, the current Egyptian leadership, indeed, shows high optimism toward adoption of nuclear power as an important and indispensable source of energy that will underpin sustainable growth of the economy in the country. The four blocks of the nuclear power plant will cost about $20 billion, according a website report of the Egyptian Ministry of Electricity and Renewable Energy.
Apparently, experts expect that such mega-projects would have thorough discussion in parliament, financing sources broadly identified and approved by the government. Egypt has yet to make an official announcement of the tender for the contract to build its nuclear plants. Media reports have also revealed that nuclear companies from China, the United States, France, South Korea and Japan seek to take part in international tender.
Egypt’s Economic Potentials
With over 100 million inhabitants, Egypt is the most populous country in North Africa, popular referred to as Maghreb region and part of the Arab World. Egypt is the third most populous country after Nigeria and Ethiopia in Africa. About half of Egypt’s residents live in urban areas, with most spread across the densely populated centers of greater Cairo, Alexandria and other major cities along the Nile Delta.
The economy has been transforming from one based upon agriculture to an economy with more emphasis on services sector, for example its fast-growing tourism and hospitality, and to some extent manufacturing. It has experienced a fall in Foreign Direct Investment [FDI] to the country.
Egypt’s economy mainly relies on sources of income: tourism, remittances from Egyptians working abroad and revenues from the Suez Canal. Egypt has received United States foreign aid [an average of $2.2 billion per year], and is the third-largest recipient of such funds from the United States.
Remittances, money earned by Egyptians [estimated 2.7 million] living abroad and sent home, reached a record $21 billion in 2012, according to the World Bank. Tourism is one of the most important sectors in Egypt’s economy. More than 15.8 million tourists  visited Egypt, providing revenues of nearly $11 billion. The tourism sector employs about 12% of Egypt’s workforce.
With one of the largest and most diversified economies in the Middle East, which is projected to become one of the largest in the world in the 21st century, Egypt has the third largest economy in Africa. Egypt is a founding member of the United Nations, the Non-Aligned Movement, the Arab League, the Organization of Islamic Cooperation and the African Union.
Is energy transition the answer to Africa’s Socio-Economic Development?
The African Union Commission (AUC) through the African Energy Commission (AFREC) hosted a high-level online side event at the COP26, held under the theme: “Opportunities and Challenges for African Energy Transition: What will it take for Africa to reach net-zero emissions’’?
The meeting called for bold measures related to opportunities and challenges facing Africa, to accelerate actions towards the full implementation of the Paris Agreement and the UN Framework Convention on Climate Change. The meeting aimed at fully unlocking Africa’s position on climate adaptation, to expand modern energy access, reduce poverty and create jobs, whilst contributing to the global objectives of circumventing the lock-in of carbon into future development on the continent.
As impacts of climate change continue to worsen and pose significant threats to socio-economic development globally, speakers across governments, African Union Commission, African Development Bank, United Nations, leading policy influencers and private sectors deliberated through a virtual forum, co-organised by the African Development Bank (AFDB), United Nations Economic Commission for Africa (UNECA), and the African Union Development Agency (AUDA-NEPAD).
In her keynote address, H.E. Dr Amani Abou-Zeid, Commissioner for Infrastructure and Energy at the African Union Commission underscored that it is in the best interest of Africa to join global efforts, to transition towards Net-Zero emissions, in order to mitigate future impacts of climate change on the continent and also reduce the costs of adaptation.
‘‘The availability of abundant renewable energy resources on the continent such as hydropower, solar, wind, geothermal and bio-energy can transform Africa’s energy sector to modern and sustainable energy through both grid and off-grid systems. These resources offer opportunities to accelerate clean energy access on the continent through energy transition and especially factoring natural gas as an energy transition fuel for power and clean cooking’’, She stressed.
Dr. Abou-Zeid also emphasized that Africa’s political will and commitment is highly significant to accelerate the uptake of renewable energy as evidenced by the targets within countries national plans reflected in their Nationally Determined Contributions (NDCs) to achieve climate and development ambitions. ‘‘COP26 should seek to stimulate concrete actions to address the huge financing gap to achieve net-zero emissions by 2050’’, she further stressed.
Though Africa contributes about 3.6% of the global CO2 emission, there is evidence that climate change impacts on Africa are more severe, bearing in mind that access to affordable clean energy remain one of the biggest challenges facing the continent. Thus, addressing persistent barriers to energy development on the continent through technical, financial, markets, policy and regulatory framework is essential.
H.E Dr Gerd Muller, the Federal Minister for Economic Cooperation and Development of Germany called for joint forces amongst nations to act now on issues of climate change and decarbonisation. He said that moving to renewable energy will create jobs and many other opportunities, which will make Africa a green continent. “Decarbonisation is necessary because the energy sector is the source of more than two thirds of all CO2 emissions’’ he emphasised. Expressing Germany’s commitment to work with Africa in her energy transition ambitions, he hailed the proposed AU-EU Green Energy Initiative as an appropriate instrument for facilitating a bi-continental approach.
H.E. Mr. Benatou ZIANE, Minister of Energy Transition and Renewable Energy of Algeria noted in a statement read on his behalf by Mr CHABANE Merouane, Permanent Secretary, that Africa needs to diversify its energy sources and liberate itself from the dependency of hydropower, to guarantee energy security for the future generations for the development of an economy which is based on a model that is aligned with socio-economic needs, promote equality, employment creation and responds to Africa’s energy challenges. “Algeria has already started working on a policy framework for a new energy model, to balance a local energy mix which is favourable for transition and reducing emission by 2030. We are also working on developing renewable energy by increasing 15 GW by 2035’’ he stressed.
In their panel discussion H.E Hon. Dr. Matthew Opoku Prempeh, Minister of Energy of Ghana, Mr. Jean-Paul Adam, Director Technology, Climate Change and Natural Resources Management of UNECA, Mr. Henry Paul Batchi Baldeh, Director Power System Development at AfDB, and Mr. Mamadou Diakhité, Acting Head of Division for Environmental Sustainability at AUDA-NEPAD highlighted the following:
- Africa need to be realistic in choosing the energy transition pathways which address her unique requirements/circumstances;
- Enhancing policy, legislation and implementation approaches across national, regional and continental level, to enable a favourable environment for development;
- Leapfrog into the green development space without ignoring Africa’s infrastructure development and industrialisation ambitions;
- Develop bankable projects to scale up access to funding and investment;
- Adopt a mix of energy solutions to address the needs of each country including solutions to high tariffs and accessibility to sustainable energy options;
- Promote energy efficiency which is necessary for energy transition;
- Focus on building energy infrastructure and strengthening transmission corridors.
The African Union together with its various development agencies and partners have taken concrete actions by developing continental development programmes and projects such as, improving infrastructure to increase regional power system network by 2040, stimulating and expanding energy markets by providing evidence-based policy advise to member states and ensuring that frameworks and strategies which will enhance technology transfer, technical capacity building at continental and national level are adopted and strengthened. Mobilising adequate financing to accelerate the energy transition agenda in Africa is also one the challenges that the Commission has focused its attention.
Energy Sector in Spain: Current State and Future Prospects
Europe’s energy transition is under scrutiny following the region’s soaring electricity prices and the scarcity of fossil fuels. The inadequacy of renewable energies to efficiently respond to these problems has become apparent. Is it necessary to increase the commitment to renewable energies and accelerate the transition? Must Europe re-think the market for emission rights (responsible for 70% of the increase in electricity prices in Spain, according to the Bank of Spain)? Does Europe need to take a step back and stockpile fossil fuels to avoid a future energy crisis?
Spain, like the rest of its European neighbors, has been a victim of the current electricity price crisis and the authorities are still trying to resolve it. To understand it in depth, it is first necessary to understand the state of the energy industry in Spain. This article aims to present a detailed analysis of the most recent developments in the energy field in Spain, the current situation of the sector and its prospects. To this end, it studies fossil fuels, renewable energy, nuclear energy, and ends with an open discussion that seeks to address some of the main issues that will define the future of the energy transition in Spain.
For this analysis, the article takes official documents of the Spanish government as its main basis: the Energy Book 2018 of the Ministry of Ecological Transition and Demographic Challenge, the National Integrated Energy and Climate Plan 2021-2030, the Law 7/2021, of May 20, on Climate Change and Energy Transition. It also uses sources like the Red Eléctrica de España website, multiple Spanish press articles and the IEA Spain 2021 Energy Policy Review.
As of 2018, fossil fuels held a major share in the Spanish final energy consumption. Oil (51% of final energy consumption) is mainly imported from Nigeria, Mexico and Saudi Arabia. Yet, Spain is a net exporter of oil products and has 9 refineries. Gas (16,4%) is mainly imported from Argelia (51% of imports), followed by Nigeria, France and Qatar. Around half of the supply arrives in LPG. Finally, coal (1.8%) is mostly imported from Russia, Colombia and Australia.
The government expects a 34% reduction of the fossil fuels contribution to primary energy by 2030 (with compared to 2017 data). In final consumption, oil participation is forecasted to drop by 28% between 2015 and 2030. Gas will maintain a stable share, due to its key role in the combined cycle electricity production that will support the development of renewable energy. Finally, coal will become insubstantial, in line with the Decision 2010/787/EU of the Council of the EU and the closing of the coal extraction in Spain.
Renewable energy made up 7.2% of the total final energy consumption in Spain, a figure that has experienced constant growth since the 1990s, but that has been mostly stable since 2011. In terms of electricity production, data in August 2021 renewable energy accounted for 49% of total production. In addition, a steady growth in thermic renewable energy (1.6% per year, thanks to biomass) and transport renewable energy (thanks to biofuels) should be noted.
Nowadays, the renewable energy sources that have the most installed power capacity in Spain are hydroelectricity and wind power. Wind power and solar PV are expected to experience fast growth, while solar thermoelectric and pumped- storage hydroelectricity will undergo a slower development. Hydroelectricity will remain stable.
The rapid development of renewable energy in Spain is supported by a strong legislative framework. This includes domestic laws as well as the EU policy for Renewable Energy and Climate Change as well as international agreements (the most important of which, the 2015 Paris Agreement, was ratified by Spain in 2017).
Until recently, the main regulatory documents were the 2007 Spanish Strategy on Climate Change and Clean Energy for 2020 and the Renewable Energy Plan 2011-2020, based on EU Directive 2009/28/EC. However, along with the Paris Agreements, Spain is developing a new Legal Framework of 5 documents:
- Law 7/2021, 20th of May 2021, on Climate Change and Energy Transition: sets the minimum targets for 2030 and 2050.
- National Integrated Plan of Energy and Climate 2021-2030: published in 2020 the law sets the medium-term prospects and milestones.
- Strategy for Low Emissions in 2050: has a long-term perspective.
- Strategy for a Fair Transition: attempts to address the problems of regions of Spain connected to technologies that will be displaced because of the National Integrated Plan of Energy and Climate 2021-2030.
- National Strategy against Energy Poverty.
This legal basis is supported by a set of institutions: CENER (National Center of Renewable Energies), IDEA (Institute for Diversification and Saving Energy), CIEMAT (Center of Energy, Environment and Technology Research), and CECRE (Center of Control of Renewable Energy). In addition, the government has created the Inter-ministerial Commission of Climate Change and Energy Transition (for coordinating between the different ministries) and has committed to establishing the Commission of Coordination of Climate Change politics (for coordination with the Spanish regions).
The objectives set by the Renewable Energy Plan 2011-2020 for 2020 of at least 20,8% of the final consumption of energy and at least 39% on the total of the electricity consumption coming from renewable energy were achieved. The Law 7/2021, 20th of May 2021, on Climate Change and Energy Transition sets new binding goals: 42% of renewable energy in total final energy consumption in 2030 and 74% of generation of electricity from renewables in 2030.
The National Integrated Plan of Energy and Climate 2021-2030 draws goals and prospects that are in accordance with the new law. For achieving this, it expects the renewable energy power by 2030 to consist of 50 GW of wind power, 39 GW solar PV, 27 GW combined gas cycles, 16 GW hydraulic, 9,5 GW pumped-storage hydroelectricity and 7 GW solar thermoelectric. The plan expects the price of energy generation to drop by 31% by 2030, carbon centrals to be non-competitive, and a governmental investment of 91.765 million euros in renewable energy (80% of which will be allocated to the private sector). It also forecasts that energy dependency will diminish from 73% in 2017 to 61% in 2030.
As for biomass, which accounted for only 4% of the total renewable energy generation in Spain, it is only recently that Spain took the necessary steps to promote this source. The National Integrated Plan on Energy and Climate 2021-2030 comprises the installed energy potential to double between 2015 and 2030, and states that there should be a further normative development.
The share of nuclear energy in the total electricity generation in Spain was 22.20% in 2020, having remained quite stable over the years. It signifies close to 30% of the total clean energy production in Spain.
The main actors of the system are 4 ownership and production companies (Endesa, Iberdrola, EDP and Naturgy), the Ministry of Ecological Transition and Demographic Challenge, the Nuclear Safety Council and ENUSA and Enresa (national companies in charge of fuel supply and radioactive waste management). On the issue of fuel supply, ENUSA Industrias Avanzadas is the state-company that produces nuclear fuel for Spanish nuclear plants as well as for exports. As there is no uranium mining in Spain, the country imports the enriched uranium, mainly from the United Kingdom (Brexit was addressed in bilateral governmental contacts) and it is ensured by the Euratom Treaty and the European Supply Agency. Regarding the waste management, high radioactivity waste storage has been planned but not yet implemented, and there is one storage center for medium and low radioactivity already.
By the year 2035 Spain plans to close all of its nuclear energy generation plants, in collaboration with EU nuclear countries. Enresa and the nuclear energy companies agreed in 2019 on a calendar to shut down the 4 nuclear plants by 2030 and the resting 3 before 2035. This signifies the consolidation of the process of shutdown of the reactors: it establishes the necessary protocols and puts an end to continuous disagreements between the parties. It also makes sure that nuclear energy continues contribute to the clean energy production goals of 2030.
In line with this, the Law/2021, 20th of May 2021, on Climate Change and Energy Transition states that the government will not give or extend any prospecting and exploitation permits for radioactive minerals and that it will not allow for new nuclear plants to be built. With the closing of the current nuclear plants and the prohibition on new nuclear plants, the future of nuclear energy in Spain is being replaced by renewable energy.
This article portrays the directions of Spanish energy policy. It notes a number of features: the decline of coal-produced energy and the mining of coal, the preservation of gas as a supporting resource for renewable energy complications, the abandonment of nuclear energy, and the commitment to renewable energy. While these goals are supported by a planned framework and milestones, factors that initially were not accounted for are impacting their progress.
Up until 2020 Spain was successfully closing down coal mining and coal-fired thermal power plants. By 2018 it had abandoned coal mining, and by the end of 2020 it had closed most of these plants. In 2021, however, Spain has had to increase the electricity generation of the remaining coal powered plants due to the storm Filomena and the shortage of energy sources that it is currently suffering. October is expected to be the month this year during which the highest amount of coal consumption. In addition to that, Spain has been buying Moroccan electricity originating from coal.
The use of gas in combined cycle plants is under scrutiny due to recent developments in the country’s main gas source, Algeria. Algeria has traditionally exported gas to Spain via the Medgaz pipeline (directly to Spain) and GME (via Morocco). In recent weeks Alger closed diplomatic relations with Rabat, and three days later hinted that it would not renew the GME pipeline agreement, which expires on 31 October.
Exclusive use of the Medgaz pipeline (which has recently been extended) would not be sufficient to cover Spanish gas demand. Even so, after bilateral contacts, Algeria guaranteed gas supply to Spain and will probably continue to do so via LNG tankers, which will increase prices.
The Spanish nuclear sector is one of the most important sources of clean electricity for Spain. Yet the infrastructure is too old, and its plants have already received too many extensions on their use. The government, therefore, plans to close down all nuclear plants by 2035. As a result, we can expect a rise in the importance of nuclear waste management can be forecasted, as well as problems with the relocation of the industry workers. However, following the electricity prices exponential rice of this summer, the Spanish government has entered into a conflict with the electricity companies (which own the nuclear plants). In response, the companies have threatened to close all nuclear power plants by 2021. Such an event would significantly damage the Spanish stand on clean energy as well as accelerate the termination of nuclear energy in Spain.
In contrast to coal or nuclear energy, renewable energy sources are the focus of government support. The trend in the sector this century has been one of steady development, which this is expected to continue. While hydropower has historically been predominant, wind and solar are set to see the greatest increase. With this, Spain hopes to reduce its dependence on fossil fuels and lower the price of electricity.
However, these plans have been called into question by the events of recent months. On one hand, there has been criticism on the stagnation of the development of solar photovoltaic energy (partly due to the inadequacy of the public administration in processing the requested projects as well as the opposition from local communities in rural areas). While this does not jeopardize Spain’s clean development goals, it does imply a certain slowdown. On the other hand, the current electricity price and energy supply crisis has highlighted the limitations of these developments in Spain, and has strained relations between government and energy companies, which may hinder future progress.
The prospects for energy in Spain are clear: renewable energy. The speed, however, at which Spain plans to reach its targets may be affected by factors not initially foreseen. The need to resort to coal, doubts about gas supply, and the conflict between state and energy companies that has endangered the continuity of nuclear energy in the country are examples of obstacles that need to be overcome. This is not to say that Spain will not achieve its goals, but rather that it is in a transition phase, and that the success of this process depends on how it responds to the problems that arise. This is why the future of energy in Spain, although moving in a very specific direction, is still open.
From our partner RIAC
The Importance of the South China Sea: Energy Perspective
Authors: Budi Prayogo Sunariyanto and Akhmad Hanan
Territorial disputes for many countries in the South China Sea has become a hot issue for several years until today. The South China Sea, which mostly consists of ASEAN countries and part of the Asia Pacific region, is currently facing a unilateral claim from China. The dispute is not an intra-ASEAN conflict but involves some ASEAN members, Vietnam, Brunei Darussalam, and the Philippines, against China (outside ASEAN) as an aggressive claimant in the South China Sea. Indonesia is also indirectly involved (as a non-claimant state) because fishers from China often engage in Illegal, Unreported, and Unregulated Fishing (IUUF) activity in the North Natuna Sea – the Indonesian Exclusive Economic Zone.
The issues in the South China Sea have drawn global condemnation as it is considered that China could threaten the peace and security of the ASEAN region. Furthermore, the issues provoked the United States and its allies to stabilize the ASEAN regional security to maintain peace and security in the Asia Pacific region through a trilateral defence pact between Australia, the United Kingdom and the United States (AUKUS) in September 2021. Under the pact, the United States and the United Kingdom will assist Australia in developing nuclear-powered submarines and deploying allied military forces to the Asia Pacific region. This action marks a new Cold War era in the Asia Pacific region, especially in the South China Sea region.
Then the question: is it really just a matter of peace and security issues? We have to look at the geopolitics aspect of the South China Sea from another perspective for the answer. The South China Sea is an area that has abundant natural resources, especially energy resources. China and the ASEAN countries knew that the South China Sea has potential oil and natural gas on the seabed. Quoted from the Asia Maritime Transparency Maritime Initiative, the US Energy Information Agency has estimated that the South China Sea holds about 190 trillion cubic feet (TCF) of natural gas and 11 billion barrels of proven and probable oil reserves. The amount of energy reserves is fantastic and has economic value for any country with territory in the South China Sea.
On the other hand, the total final consumption (TFC) of energy by source in the Asia Pacific region reached almost 175 million Terajoules (TJ) in 2019 and is projected to increase in proportion to the population and economic growth in the Asia Pacific. The Asia Pacific region is home to about 60 percent of the global population. With this fact, many countries in the Asia Pacific are competing to find energy resources to meet their needs, as depicted in the South China Sea dispute to claim energy resources.
China, which also lies in the Asia Pacific region, has the same goal of obtaining energy resources in the South China Sea. China’s nine-dash line claim in the South China Sea is certainly aimed to secure energy resources to meet China’s energy needs. In 2014, China National Offshore Oil Corporation (CNOOC) conducted a deepwater drilling rig in the Vietnamese waters and began seafloor drilling operations for natural gas. The location of the drilling activity is in Vietnam’s exclusive economic zone and only almost 17 nautical miles from Triton Island in the South China Sea. Then in April 2021, it was reported that Chinese scientists on a marine research vessel “Sea Bull II” had drilled deep in the South China Sea to retrieve sediment core from the seabed. This drilling activity is to explore natural gas hydrate resources in the seabed. China is undoubtedly looking for evidence of energy resources in the South China Sea.
Meanwhile, the US and its allies do not directly target the energy resources in the South China Sea. The US and its allies are interested in blocking China’s influence in the Asia Pacific. More than 30% of global maritime crude oil trade moves through the South China Sea, including crude oil trade from Europe, the Middle East, to the United States. In other words, the US and its allies are interested in securing South China Sea passage and ensuring energy supply for the US and its allies.
The Middle East considers that the South China Sea is a major trade route. In 2016, crude oil shipments from Saudi Arabia mostly passed through the South China Sea. In addition, around 90% of Japan and South Korea’s imported crude oil from Middle Eastern suppliers is transported through the Strait of Malacca and then the South China Sea. With this fact, the security of the South China Sea is essential for energy supply in the Asia Pacific region.
The conflict in the South China Sea must be resolved immediately through diplomatic mechanisms by the Asian Pacific countries. No one can unilaterally control the South China Sea with the defence power of each country. Moreover, making territorial claims that are contrary to the sovereign rights and international law of the sea. The Asia Pacific countries are responsible for maintaining peace and security because the South China Sea has a vital role in energy security in the Asia Pacific region and globally.
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Thailand and Kon La Krueng Co-payment Scheme: A Challenge towards Sustainable Consumption
The COVID-19 has impacted many people around the world, particularly the poor people who are unable to meet their fundamental...
The question with contradictory US human rights policies towards Saudi Arabia and Iran
A cursory look at Saudi Arabia and Iran suggests that emphasizing human rights in US foreign policy may complicate relations...
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